Clamping device

ABSTRACT

A clamping device for fixing a die on the setting surface of a lateral injection molding machine comprises a clamp main body, plural clamping hydraulic cylinders installed in the output portion at the front end portion of the clamp main body, and a guide mechanism for guiding the clamp main body movably only in the longitudinal direction without separate from the setting surface, in which the clamp main body can be freely changed over in position with respect to the setting surface in the released state, so that it may not be dislocated from the setting surface. The lower base portion of the clamp main body can be divided as a base member to be fixed on the setting surface.

BACKGROUND OF THE INVENTION

The present invention relates to a clamping device for fixing a die or awork to be machined by a machine tool on a setting surface of a platemember such as bolster, platen and table.

As to the clamping device for clamping a die of injection moldingmachine or press machine on a platen or bolster, various clampingdevices are presented for practical use as disclosed, for example, inthe Japanese Laid-open Utility Model Publication No. 48-44073 andJapanese Patent Publication No. 52-30371.

Particularly, in a horizontal type injection molding machine, a pair ofvertical platens is provided, and clamping devices for fixing the die onthe setting surface of platen are disposed at both right and left areasof the setting surface.

When exchanging the dies, generally, an overhead traveling crane is usedto replace the dies, and in this case, with supporting the die by thewire of the crane, and after releasing the clamping device, the clampingdevice is set aside on the setting surface, and the used die is liftedupward, and discharged. Then, a next die is lifted by the crane, and islowered along the setting surface, and the clamping device is movedtoward the die, and the die is fixed on the setting surface by theclamping device.

When the die size is changed by exchange of dies, moreover, the mountingposition of the clamping device must be changed.

On the setting surface of a horizontal type injection molding machine,generally, any T-groove is not formed, but plural tap holes are formedin a specific layout pattern. Accordingly, as to the clamping device, itis preferable to apply a clamping device capable of being fixed on thesetting surface through the tap holes and bolts, and being changed overthe position in the state of being mounted on the setting surface.

For example, the clamping device disclosed in the Japanese Utility ModelPublication No. 58-54990 is put in practical use. In this clampingdevice, a slit is formed in the clamp arm, and a fulcrum boltpenetrating through a bolt hole of a holding plate to be engaged withthe upper end of the clamp arm and the slit in the clamp arm is screwedinto the tap hole of the setting surface, and the rear end portion ofthe clamp arm is supported on the setting surface through a spacer and abolt member. By tightening the fulcrum bolt, the die is fixed on thesetting surface with the front end portion of the clamp arm.

In such injection molding machine or press machine, when exchanging thedies, the clamping device is once set aside and the old die is removed,and a new die is put in, then the clamping device is set at the clampingposition for fixing the new die.

In the clamping device disclosed in the Japanese Patent Publication No.52-30371, since the clamp main body is fixed on the setting surface withbolts, it takes a lot of time and labor for changing over the positionof the clamping device. The clamping device disclosed in the JapaneseLaid-open Utility Model Publication No. 48-44073 can not be mounted onthe setting surface on which T-groove is not formed, such as the settingsurface of the injection molding machine.

On the other hand, the clamping device disclosed in the Japanese UtilityModel Publication No. 58-54990 can be mounted by utilizing the existingtap holes of the setting surface, and also can be changed over theposition of the clamp arm by loosening the fulcrum bolt. In thereleasing state, however, since the clamp arm and fulcrum bolt are notcoupled at all, they tend to separate from each other, and theirhandling or storing may be troublesome.

This clamping device is light in weight, and is hence desirable forfixing the die on the vertical setting surface of the lateral injectionmolding machine, but since it cannot generate powerful clamping force,multiple clamping devices are needed, and it is difficult to improve theworking efficiency of clamping and releasing, and parts may be droppedin releasing state, among other problems.

It is hence a primary object of the present invention to mount aclamping device on the setting surface by utilizing the existing tapholes of the setting surface, to simplify the position changeoveroperation of the clamping device, to improve the working efficiency ofclamping and releasing, and to reinforce the clamping force.

SUMMARY OF THE INVENTION

The present invention presents a clamping device for fixing an object tobe clamped on a setting surface of a plate member, and this clampingdevice comprises a clamp main body disposed on the setting surface, withits bottom abutting against the setting surface, a guide mechanism forguiding the clamp main body on the setting surface so as to be movableforward and backward in the longitudinal direction without separate fromthe setting surface, an output portion formed in a front end portion ofthe clamp main body, and confronting the setting surface across a gapfor admitting an end portion of the object to be clamped, and pluralhydraulic cylinders arranged in the output portion in one row in thedirection orthogonal to the longitudinal direction, directedorthogonally to the setting surface, and capable of extending anddriving piston rods toward the setting surface.

Alternatively, the clamping device comprises a base member like a thickplate being detachably fixed on a setting surface, a clamp main bodydisposed with its bottom abutting against the top surface of the basemember, a guide mechanism for guiding the clamp main body on the basemember so as to be movable forward and backward in the longitudinaldirection without separating from the top surface of the base member,and plural hydraulic cylinders arranged in one row in the directionorthogonal to the longitudinal direction, installed orthogonally to thesetting surface in an output portion provided in the front end portionof the clamp main body, and capable of extending and driving piston rodstoward the setting surface.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing the state of fixing a die on a platen of alateral injection molding machine by a clamping device according to anembodiment of the present invention;

FIG. 2 is a perspective view of the die and clamping device in FIG. 1;

FIG. 3 is a side view of the clamping device in FIG. 1;

FIG. 4 is a sectional view of line IV--IV in FIG. 3;

FIG. 5 is a sectional view of line V--V in FIG. 3;

FIG. 6 is a side view of a clamping device in a first modified example;

FIG. 7 is a side view of a clamping device in a second modified example;

FIG. 8 is a sectional view of a part of a clamping device in a thirdmodified example;

FIG. 9 is a side view of a clamping device in a fourth modified example;

FIG. 10 is a side view of a clamping device in a fifth modified example;

FIG. 11 is a sectional view of a part of a clamping device in a sixthmodified example;

FIG. 12 is a sectional view of line XII--XII in FIG. 11;

FIG. 13 is a sectional view of a part of a clamping device in a seventhmodified example;

FIG. 14 is a sectional view of line XIV--XIV in FIG. 13;

FIG. 15 is a side view of a clamping device in an alternative embodimentof the present invention;

FIG. 16 is a sectional view of line XV--XV in FIG. 15;

FIG. 17 is a sectional view of line XVII--XVII in FIG. 15;

FIG. 18 is a sectional view of a clamping device in a fourth modifiedexample of the alternative embodiment;

FIG. 19 is a sectional view of line XIX--XIX in FIG. 18;

FIG. 20 is a sectional view of a clamping device in a fifth modifiedexample of the alternative embodiment;

FIG. 21 is a sectional view of line XXI--XXI in FIG. 20;

FIG. 22 is a sectional view of a clamping device in a sixth modifiedexample of the alternative embodiment; and

FIG. 23 is a sectional view of line XXIII--XXIII in FIG. 22.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

With reference to the drawings, the preferred embodiments of the presentinvention are described in detail below.

A first embodiment is an example of applying the present invention to aclamping device for fixing a die on a platen for fixing the die of alateral injection molding machine.

As shown in FIGS. 1, 2, a die 3 is disposed on each setting surface 2 ofa pair of vertical platens 1 of the lateral injection molding machine,and each die 3 is fixed on the setting surface 2 by a pair of clampingdevices 10.

The structure of the clamping device 10 will be described with referenceto FIGS. 3 to 5.

A clamp main body 11 is constituted with a slender rectangular thickmetal member, and the clamp main body 11 is disposed on the settingsurface 2 so that its entire bottom may contact with the setting surface2. At the front end portion of the clamp main body 11 is formed anoutput portion 12 confronting the setting surface 2 across a specifiedgap for admitting the end portion 3a of the die 3.

Next, descriptions will be made on a guide mechanism for guiding theclamp main body 11 on the setting surface 2 so as to be movable forwardand backward in the longitudinal direction without separating from thesetting surface 2.

In the upper part and lower part of the clamp main body 11, in anintermediate part in the longitudinal direction of the clamp main body11, four slender guide holes 13 are formed parallel in the longitudinaldirection.

The guide holes 13 are formed in a T-shape with an open top end, andeach guide hole 13 consists of a narrow hole 14 and a wide hole 15, anda step 16 is formed in the bottom of the wide hole 15.

In each guide hole 13, a flanged bush 17 consisting of a tubular part 18and its top flange 19 is inserted, and the tubular part 18 is disposedin the narrow hole 14, and the flange 19 in the wide hole 15, and thetubular part 18 is formed slightly longer than the height of the narrowhole 14.

In each flanged bush 17, a bolt 20 is inserted from outward, and thebottom end portion of the bolt 20 is screwed into a tap hole 4 of thesetting surface 2, and each flanged bush 17, is fixed on the settingsurface 2 by a bolt 20 inserted into the flanged bush 17 and screwed inthe tap hole 4 of the setting surface 2, with a slight gap left betweenthe flange 19 and the step 16.

Thus, the guide mechanism comprises four guide holes 13, four flangedbushes 17, and four bolts 20.

Therefore, the clamp main body 11 is movable forward and backward in thelongitudinal direction in the range allowed by the guide holes 13, butis arrested by the four flanges 19 of the four flanged bushes 17 so asnot to separate from the setting surface 2. Meanwhile, each head 21 ofthe bolts 20 is put in the wide hole 15.

The output portion 12 comprises eight hydraulic cylinders 30 disposed ina row in the vertical direction, and directed to the directionorthogonal to the setting surface 2.

Concerning each hydraulic cylinder 30, a cylinder chamber is formed byclosing the bottom of the cylinder hole formed in the clamp main body 11by an annular member 31, and a piston 32 is put in the cylinder chamber,and a piston rod 33 extending from the piston 32 toward the settingsurface 2 penetrates through a rod hole in the annular member 31, andthe piston rod 33 is composed so as to advance from the output portion12 toward the setting surface 2, whereas an oil chamber 34 is formed atthe top side of the piston 32 in the cylinder chamber, and an airchamber 35 is formed at the opposite side of the piston 32.

In order to supply pressure oil to the oil chambers 34 in the eighthydraulic cylinders 30, an oil passage 36 is straightly formed to reachfrom a pressure oil feed port 37 at the upper end portion of the clampmain body 11 to the top of the eight oil chambers 34, and a hydraulichose extended from a hydraulic feed unit (not shown) is connected to thepressure oil feed port 37.

In order to supply pressurized air into the air chambers 35 of the eighthydraulic cylinders 30, an air passage 41 is straightly formed to reachfrom an air feed port 39 at the upper end portion of the clamp main body11 to the eight air chambers 35, and an air hose 40 extended from anpressurized air feed unit (not shown) is connected to the air feed port39.

Alternatively, however, the air chambers 35 may be formed to be oilchambers, and pressure oil may be supplied thereinto, or a return springmay be provided in each air chamber 35 in order to return the piston 32by the spring.

The function of the clamping device 10 will be described below.

In this clamping device 10, it is possible to mount the clamping device10 on the setting surface 2 by making use of the four tap holes 4 of thesetting surface 2, and in the released state, as shown in FIG. 4, it ispossible to change over positions of the clamp main body 11 between theretreat position indicated by solid line and the clamping positionindicated by chain line, so that the clamp main body 11 will not bedislocated from the setting surface 2.

By changing over the clamp main body 11 to the clamping position andfeeding pressure oil to the eight hydraulic cylinders 30, the eightpiston rods 33 advance to fix the end part 3a of the die 3 firmly to thesetting surface 2. The clamping reaction force in this clamped state ispowerfully supported by the four bolts 20 through the flanges 19 of theeight flanged bushes 17.

When exchanging the die 3, in the released state, the die 3 is replacedin the state of changing over the clamp main body 11 to the retreatposition. After replacing the die 3, the clamp main body 11 to ischanged again to the clamping position, and is set in the clamped state.

The clamp main body 11 can fix the dies 3 of various sizes because theposition can be freely adjusted in the longitudinal direction as far aspermitted by the guide holes 13. Besides, dies 3 of large and smallsizes can be fixed by changing the mounting position for mounting theclamping device 10 on the setting surface 2.

Because of the constitution designed to clamp by eight hydrauliccylinders 30, clamping and releasing can be done easily.

The guide holes 13, flanged bushes 17, and bolts 20 are not limited tofour sets, but two or more sets may be applicable, and the number ofhydraulic cylinders 30 may be less or more than eight. Omitting theflanged bushes 17, it may be also composed to arrest the step 17directly by the head 21 of the bolt 20.

Described below are seven modified embodiments including partialmodification of the clamping device described above. The same elementsas in the foregoing embodiment are identified with the same referencenumerals, and duplicated explanations are omitted.

I) As shown in FIG. 6, inside of the middle part of a clamp main body11A of a clamping device 10A, a hydraulic cylinder 45 in thelongitudinal direction are provided, and its piston rod 46 is projectedbackward from the rear end portion of the clamp main body 11A, and anL-shaped fixing piece 49 is fixed to the setting surface 2 with a bolt50, and the piston rod 46 is coupled to the fixing piece 49 through apair of nuts 51. Hydraulic hoses 47, 48 extended from an pressure oilfeed unit (not shown) are connected to the hydraulic cylinder 45.

In the unclamped state, the clamp main body 11A may be moved in thelongitudinal direction to change over the position by means of thehydraulic cylinder 45. In this constitution, clamping, releasing, andposition changeover of clamping device 10A may be manipulated by remotecontrol through the pressure oil feed unit. Instead of the hydrauliccylinder 45, an, air cylinder may be provided.

II) As shown in FIG. 7, inside of the middle part of a clamp main body11B of a clamping device 10B, a hydraulic booster 60 in the longitudinaldirection are provided. The hydraulic booster 60 comprises a large borecylinder 61, a piston 62 installed in the large bore cylinder 61, an oilchamber 63, a spring 64 installed in a spring chamber, a small plungerhole 65, a plunger 66 extended from the piston 62 and inserted into thesmall plunger hole 65, and a plunger chamber 67 connected to the oilpassage 36. It is designed to feed pressure oil into the oil chamber 63through a hydraulic hose 68 extended from an pressure oil feed unit (notshown).

In the state of changing over the clamp main body 11B in the clampingposition, before feeding pressure oil into the oil chamber 63, whenpressure oil is supplied into the eight hydraulic cylinders 30, pressureoil is supplied into the plunger chamber 67 from the oil passage 36.Next, by feeding pressure oil to the oil chamber 63, and when the piston62 is driven forward, the pressure oil in the plunger chamber 67, oilpassage 36, and oil chambers 34 in the eight hydraulic cylinders 30 isboosted, so that the clamping force may be fortified. However, in orderto prevent counterflow of the pressure oil toward the hydraulic hose 38,a check valve or the like should be provided in the pressure oil feedunit for feeding pressure oil to the hydraulic hose 38. When thehydraulic booster 60 is provided, the clamping force can be extremelyincreased by raising the oil pressure in the hydraulic cylinder 30, orthe hydraulic cylinder 30 may be reduced in size.

Instead of the hydraulic booster 60, a screw type hydraulic booster forpressurizing the oil by a screw member may be also provided.

Otherwise, when the plunger chamber 67 of the hydraulic booster 60 isformed in a large capacity, by omitting the hydraulic hose 38 andpressure oil feed port, it may be possible to feed pressure oil from thehydraulic booster 60 to the eight hydraulic cylinders 30.

III) As shown in FIG. 8, when a clamp main body 11C is formed in a largethickness, eight sets of hydraulic cylinders in serial two-stagestructure may be provided in an output portion 12C.

Auxiliary hydraulic cylinders 30C are provided in series at the top sideof each hydraulic cylinder 30 approximately in the same structure as thehydraulic cylinder 30, and an oil chamber 34 communicates with an oilchamber 73 through an oil passage 73 formed in a piston 70 and a pistonrod 71 of the auxiliary hydraulic cylinder 30C, and it is designed todrive by the pressure oil of the both hydraulic cylinders 30, 30C. Thus,the clamping force can be fortified.

IV) As shown in FIG. 9, the width in the longitudinal direction of aclamp main body lid of a clamping device 10D is expanded, and the lengthof each guide hole 13D is extended. In this case, the position adjustingstroke of the clamping device 10D is large.

V) As shown in FIG. 10, two relatively short guide holes 13E are formedin a clamp main body lie of a clamping device 10E, and it is designed tomount the clamp main body 11E on the setting surface 2 through twoflanged bushes 17 and two bolts 20, and four hydraulic cylinders 30 areprovided in the output portion 12E.

VI) As shown in FIGS. 11, 12, each of plural guide holes 13F of a clampmain body 11F of a clamping device 10F is formed as a T section hole notopened to the top of the clam main body 11F, and is opened to the rearend portion (or front end portion) of the clamp main body 11F. In thisclamping device 10F, after preliminarily fixing plural flanged bushes 17on the setting surface 2 with bolts 20, by moving the clamp main body11F from forward (or from backward), the flanged bushes 13F fixed withbolts 20 can be led into the guide holes 13F, respectively.

Since the outside of the guide holes 13F is not open, foreign matterwill not invade easily into the guide holes 13F. Accordingly, theclamping device 10F is desirable for fixing a work to be machined by amachine tool. Incidentally, by omitting the flanged bushes 17, the step16 may be directly stopped by the head of the bolt 20, or the rear endportion of the guide holes 13F may be closed with a detachable piece.

VII) As shown in FIGS. 13, 14, plural rectangular section guide holes13G are formed in a clamp main body 11G of a clamping device 10G insteadof the guide holes 13, and the flanged bushes 17 are omitted, and eachstepped bolt 20G inserted in the guide hole 13G is screwed into the taphole 4 of the setting surface 2, and a slight gap is formed between thehead 21G of each bolts 20G and the top end surface of the clamp mainbody 11G, and therefore the clamp main body 11G may be free to movelongitudinally without separating from the setting surface, as beingarrested by the heads 20G of the plural stepped bolts 20G.

In this clamping device 10G, the guide mechanism comprises plural guideholes 13G, and plural bolts 20G inserted into these plural guide holes13G, respectively.

Therefore, in this clamping device 10G, since the structure of the guideholes 13G is simplified and the flanged bushes 17 are omitted, theentire structure is simplified, remarkably.

An alternative embodiment of the clamping device of the presentinvention will be described below with reference to FIG. 15 and thefollowing FIGS.

As shown in FIGS. 15 to 17, in this clamping device 110, a base member100 is constituted with a slender, rectangular thick metal member. Inthis base member 100, for example, eight bolt holes 102 are formedorthogonally to the setting surface 2 in an array pitch coincidental tothe array pitch of the tap holes 4 in the setting surface 2, and thebase member 100 is fixed detachably to the setting surface 2, with itsbottom abutting against the setting surface 2, by screwing bolts 103inserted into the eight bolt holes 102 into the tap holes 4 of thesetting surface 2. A clamp main body 111 is constituted with a slenderrectangular thick metal member in approximately same size as the basemember 11 in vertical size and width size, and the clamp main body 111is disposed on the base member 100 with its bottom in facial contactwith the top surface 101 of the base member 100. At the front endportion of the clamp main body 111 is formed an output portion 112confronting the setting surface 2 at a specific interval for admittingthe end part 3a of the die 3.

Next, descriptions will be made on the guide mechanism for guiding theclamp main body 111 against the base member 100 so as to be movableforward and backward in the longitudinal direction and not to float fromthe base member 100.

This guide mechanism comprises, for example, four guide holes 113respectively formed in the clamp main body 111, four flanged bushes 117inserted in these guide holes 113 respectively, and four bolts 120inserted in these bushes 117 respectively and screwed into the tap holes104 of the base member 100.

More specifically, in the upper part and lower part of the clamp mainbody 111, in an intermediate part in the longitudinal direction of theclamp main body 111, four slender guide holes 113 are formed parallel inthe longitudinal direction. Each guide holes 113 is formed in a T-shapewith an open top end, and each guide hole 13 consists of a narrow hole114 and a wide hole 115, and a step 116 is formed in the bottom of thewide hole 115.

In each guide hole 113, a flanged bush 117 consisting of a tubular part118 and its top flange 119 is inserted, and the tubular part 118 isdisposed in the narrow hole 114, and the flange 119 in the wide hole115, and the tubular part 118 is formed slightly longer than the heightof the narrow hole 114.

In each flanged bush 117, a bolt 120 is inserted from outward, and thebottom end portion of the bolt 120 is screwed into the tap hole 104 inthe base member 100, and each flanged bush 117 is fixed to the basemember 100, with a slight gap left between the flange 119 and the step116, by means of the bolt 120.

Thus, the guide mechanism is constituted with four guide holes 113, fourflanged bushes 117, and four bolts 120.

Therefore, the clamp main body 111 is movable forward and backward inthe longitudinal direction in the range allowed by the guide mechanism,but is arrested by the four flanges 119 of the four flanged bushes 117so as not to separate from the base member 100. The guide hole 113 isformed so that the output portion 112 may project ahead than the frontend of the base member 100, when the clamp main body 111 advanced to themaximum limit.

The output portion 112 comprises eight hydraulic cylinders 130 disposedin a row in the vertical direction, directed in the direction orthogonalto the setting surface 2.

The constitution of annular member 131, piston 132, piston rod 133, oilchamber 134, and air chamber 135 in each hydraulic cylinder, theconstitution of pressure oil feed port 137, oil passage 136, andhydraulic hose 138 for feeding pressure oil of the hydraulic cylinders130, and the constitution of air feed port 139, air passage 141 and airhose 140 for feeding pressurized air to these hydraulic cylinders 130are same as in the foregoing embodiment.

The function of the clamping device 110 will be described below. In thisclamping device 110, the base member 100 is fixed to the setting surface2 with eight bolts 103 by making use of eight tap holes 4 of the settingsurface 2, and the clamp main body 111 is mounted on the base member 100so as to be movable longitudinally and not to float from the top surface101 of the base member 100 by the guide mechanism.

In the released state, as shown in FIG. 16, it is possible to changeover positions of the clamp main body 111 between the retreat positionindicated by solid lines and the clamping position indicated by chainlines, so that the clamp main body 111 will not be dislocated from thesetting surface 2 by means of the base member 100 and guide mechanism.

By changing over the clamp main body 111 to the clamping position andfeeding pressure oil to the eight hydraulic cylinders 130, the eightpiston rods 133 advance to fix the end part 3a of the die 3 firmly tothe setting surface 2. The clamp reaction force in this clamped state ispowerfully supported by the base member 100 with eight bolts 120 throughthe flanges 119 of the eight flanged bushes 117.

When exchanging the die 3, in the released state, the die 3 is replacedin the state of changing over the clamp main body 111 to the retreatposition. After replacing the die 3, the clamp main body 111 is changedagain to the clamping position, and is set in the clamped state.

The clamp main body 111 can fix the dies 3 in various sizes because theposition of the clamp main body 111 can be freely adjusted in thelongitudinal direction as far as permitted by the guide mechanism.Besides, dies 3 of large and small sizes can be fixed by changing themounting position for mounting the base member 100 on the settingsurface 2.

Because of the constitution designed to clamp by eight hydrauliccylinders 130 which operate in synchronism, clamping and releasing canbe done easily.

Moreover, since the clamp main body 111 complicated in structure, andthe base member 100 simple in structure are separated from each other,machining of the clamp main body 111, especially machining of the guideholes 113 become easy, and the materials for the clamp main body 111 andbase member 100 can be saved, so that the manufacturing cost of theclamping device 110 may be reduced.

The guide holes 113, flanged bushes 117, and bolts 120 are not limitedto four sets, but two or more sets may be applicable, and the number ofhydraulic cylinders 130 may be less or more than eight. By omitting theflanged bushes 117, it may be also composed to arrest the step 116directly by the heads 121 of the bolts 120.

Described below are six modified embodiments including partialmodification of the clamping device 110 described above. The sameelements as in the foregoing embodiment are identified with the samereference numerals, and duplicated explanations are omitted.

I) Hydraulic cylinders similar to the hydraulic cylinder 45 in FIG. 6may be provided in the clamp main body 111, and the clamp main body 111may be driven by the hydraulic cylinder so as to be movable in thelongitudinal direction to the setting surface 2.

II) A hydraulic booster similar to the hydraulic booster 60 in FIG. 7may be provided in the clamp main body 111, and the pressure oil in theoil chambers 134 in eight hydraulic cylinders 130 may be boosted by thehydraulic booster, and pressure oil may be supplied into the eight oilchambers 134 by the hydraulic booster.

III) Same as in FIG. 8, eight sets of hydraulic cylinders in serialtwo-stage structure may be provided in the output portion 112 of theclamp main body 111.

IV) As shown in FIGS. 18, 19, the guide mechanism in a clamping device110D is constituted with plural guide holes 113D, plural flanged bushes117, and plural bolts 120.

Each of the plural guide holes 113D of the clamp main body 111D isformed as a T-section hole not opened to the top of the clamp main body111D, and is opened to the rear end portion (or front end portion) ofthe clamp main body 111D.

In this clamping device 110D, after preliminarily fixing the pluralflanged bushes 117 to the base member 100 by bolts 120, by moving theclamp main body 111D from forward (or from backward), the flanged bushes117 fixed by the bolts 120 can be led into the guide holes 113Drespectively. Since the outside of the guide holes 113D is not opened,foreign matter cannot invade the guide holes 113D. The base member 100is detachably fixed on the setting surface 2 by means of plural bolts.

Therefore, the clamping device 110D is desirable for fixing a work to bemachined by a machine tool. Or, by omitting the flanged bushes 117, thestep 116 may be directly arrested by the head 121 of the bolt 120, orthe rear end portion of the guide holes 113D may be closed by adetachable piece.

V) As shown in FIGS. 20, 21, the guide mechanism of a clamping device110E comprises plural T-grooves 113E formed in the clamp main body 111Ein the longitudinal direction, and plural T-shaped engaging parts 140formed on the top of the base member 100E and slidably engaged with theplural T-grooves 113E respectively while preventing the clamp main body111E from floating up.

Since the rear ends of the T-grooves 113E are opened, to preventdislocation of the clamp main body 111E forward from the base member100E, for example, a pin member 151 is provided in the clamp main body111E, and a longitudinal slender slit 152 is formed in the engagingparts 150, so that the pin member 151 may be arrested by the front endwall 153 of the slit 152. Or, by turning the guide mechanism upsidedown, the T-grooves 113E may be formed at the base member 100E side, andthe engaging parts 150 may be formed at the clamp main body 111E side.

VI) As shown in FIGS. 22, 23, the guide mechanism of a clamping device110F is constituted with plural guide holes 113F, and plural bolts 120Fbeing inserted respectively in these guide holes 113F, and bolts 120Fare screwed to the base member 100.

In a clamp main body 111F of the clamping device 110F, pluralrectangular section guide holes 113F are formed instead of the guideholes 113, and the flanged bushes 117 are omitted, and stepped bolts120F inserted in the guide holes 113F are screwed into the tap holes 104in the base member 100 respectively, and a slip gap is formed betweenthe heads 121F of the bolts 120F and the clamp main body 111F, and theclamp main body 111F is guided so as to be movable in the longitudinaldirection without floating from the base member 100, by the heads 121Fof the plural stepped bolts 120.

In this clamping device 110F, the structure of the guide mechanism issimplified, and the flanged bushes can be omitted, so that the entirestructure is simplified.

The clamping devices of the present invention described so far can beapplied to fixing of not only the dies of injection molding machine butalso the dies of press machine to the setting surface of the bolster,and fixing of the work to be machined by a machine tool to the settingsurface of a table of the machine tool or the setting surface of a workpallet, and is applicable to fixing of various works, tools and otherobjects to be clamped to the setting surface of a plate member such astable, bolster and platen.

What is claimed is:
 1. For use with a lateral injection molding machine,a press machine, or the like, a clamping device for fixing an object tobe clamped on a setting surface of a plate member such as a table,bolster and platen, said clamping device comprising:a clamp main bodydisposed on the setting surface, with its bottom abutting against thesetting surface; a guide mechanism formed in the clamp main body forguiding the clamp main body on the setting surface so as to be movableforward and backward in a longitudinal direction without separating fromthe setting surface; an output portion formed in a front end portion ofthe clamp body, and confronting the setting surface across a gap foradmitting an end portion of the object to be clamped; and pluralhydraulic cylinders arranged in the output portion in one row in thedirection orthogonal to the longitudinal direction, directed in adirection orthogonal to the setting surface, and capable of extendingand driving piston rods toward the setting surface to press directlyagainst said end portion.
 2. A clamping device according to claim 1,wherein said guide mechanism comprises:plural guide holes formed in theclamp main body, slenderly in the longitudinal direction andorthogonally to the setting surface; and disposed in parallel; pluralflanged bushes inserted in the plural guide holes respectively, and eachof the flanged bushes including a flange for stopping the clamp mainbody; and plural bolts for fixing the flanged bushes to the settingsurface respectively, and each of the plural bolts being inserted intothe flanged bush and screwed in a tap hole of the setting surface.
 3. Aclamping device according to claim 2, whereineach of the guide holes isformed as a T-section hole having a step and being opened to the top ofthe clamp main body, and the step being constituted so as to be stoppedby the flange bush.
 4. A clamping device according to claim 2,whereineach of the guide holes is formed as a T-section hole having astep and being not opened to the top of the clamp main body, and thestep being constituted so as to be stopped by the flanged bush, and theguide holes are opened to the front end portion or rear end portion ofthe clamp main body.
 5. A clamping device according to claim 1, whereinthe output portion comprisesa pressure oil feed port, and an oil passagefor communicating between the pressure oil feed port and the pressureoil chambers of the plural hydraulic cylinders.
 6. A clamping deviceaccording to claim 1, wherein said clamping device comprisesa hydrauliccylinder directed in the longitudinal direction and provided in theclamp main body, for driving the clamp main body forward and backward.7. A clamping device according to claim 5, wherein said clampingdevicecomprises a hydraulic booster including a plunger holecommunicating with the oil passage, a plunger inserted in the plungerhole, and a hydraulic cylinder for driving the plunger and provided inthe clamp main body.
 8. A clamping device according to claim 1, whereinthe guide mechanism comprises:plural guide holes formed in the clampmain body; slenderly in the longitudinal direction and orthogonally tothe setting surface, and disposed in parallel; and plural bolt membersinserted in the plural guide holes respectively, screwed into the tapholes of the setting surface respectively, and possessing bolt headsrespectively for stopping the clamp main body so as to be movable andnot to separate from the setting surface.